US2995771A - Gimbaled caster - Google Patents

Description

Aug. 15, 1961 A. .LMULLIKIN 2,995,771

GIMBALED cAsTER 4Filed May 1l, 1959 2 Sheets-Sheet 1 ARTHUR J. MULLKIN INVENTOR.

l y f l ATTOR NEY Aug, l5, 1961 A, J. MULLIKIN 2,995,771

GIMBALED cAsTER Filed May l1, 1959 2 Sheets-Sheet 2 FIG. 5 4J6 ARTHUR J. MULLIKIN INVENTOR.

ATTORNEY Unite Filed May 11, 1959, 'Ser'. No. 812,241 Claims. (Cl. 16-21) The present invention relates generally to casters for supporting selected articles in a mobile manner.

The present invention is a continuation-impart of an application tiled by me in the United States Patent Oicc v on March 18, 1959, under Serial Number 800,333.

The prior art reveals a large number of casters of varied designs of the swivel and locking type for xing the position of the article supported. However, those casters providing a locking means or arrangement for supporting Wheels do not, as far as I have been able to learn, provide a means for increasing the support area at the point of contact of the supporting wheel with a supporting surface. The use of casters for supporting heavy articles results in an indentation or recess being formed on the surface ofthe supporting area because of the relatively small supporting area at the point where the wheel contacts the supporting surface. This is particularly true where the supporting surface comprises a floor with a covering such as linoleum, rugs, or the like. p

y It is, therefore, the principal object of the instant invention to provide a caster equipped with wheel means including a wheel holding frame which will support a desired article in a mobile manner, and, wherein the wheel holding frame may be manually rotated about an axis, perpendicular to the axis of rotation of the Wheels, for positioning one side surface of the wheel holding frame in contact with a supporting surface.

Another object is to provide a caster of this class having bracket means which may be pivotally connected to the lower surface of an article to be supported on a vertical axis off-set with respect to the points of contact of the supporting wheels with the support surface, whereby the caster will pivot rearwardly in a trailing manner when the supported article is moved across the support surface.

Another object is to provide a dual wheeled type caster wherein the axle common to both wheels is free to pivot about a horizontal axis perpendicular to the Wheel axis whereby the wheels may tilt or pivot laterally when rolling across rough or uneven surfaces when moving a supported article. v

' Another object is to provide a wheeled caster of this class having a frame-like wheel supporting a cross-member wherein the spacing between the horizontal axis of the cross-member and the outer surface of its respective sidesis equal to the distance between the horizontal axis and the Wheel supporting sur-face thus permitting the cross-member to be rotated 90 in either direction for positioning a lateral outer side surface of the crossmember in contact with a supporting surface without changing or altering the height of the -caster thereby increasing its supporting stability.

f' Still another object is to provide a caster of this class wherein a wheel supporting cross-member is centrally journaled on a horizontal axis, and wherein the wheel is journaled by an axle having its axis oil-set upwardly with respect to the axis of the wheel supporting cross-member for lowering the center of gravity of the supported article.

Yet another object is to provide a caster of this class wherein the supporting wheel, or wheels, may be manually rotated about a horizontal axis, perpendicular to the axis of the wheel, for positioning the caster in a fixed position` and which includes means for returning the tates arent '52,995,771 Y Patented Aug. 15, v19.61y

2 caster wheels toward a rolling position when the weight of the supported article is removed from the caster.

The present invention accomplishes these and other* objects by providing a substantially inverted U-shapedA bracket, or yoke, which includes a rectangular surfacev adapted to be connected to a vertical spindle or shaft for' pivoting movement of the yoke about the vertical axisof the shaft. The yoke includes a pair of depending, spaced-apart, parallel arms which journal a frame-like cross-member therebetween on a horizontal axis. One or more wheels are journaled within the frame on an axle perpendicular with respect to the horizontal axis of the frame.

Other objects will be apparent from the following. description when taken in conjunction with the accom-- panying two sheets of drawings, wherein:

FIGURE 1 is an elevational view of the device;

FIGURE 2 is a vertical cross-sectional view taken sub-'- stantially along line 2-2 of FIG. l;

FIGURE 3 is an elevational yview of the device withs the cross-member and wheels rotated substantially 90: degrees about its horizontal axis;

FIGURE 4 is an end elevational view of the device im the position illustrated in FIG. 3;

FIGURE 5 is an elevational view of an alternate einbodiment of the device;

FIGURE 6 is a vertical cross-sectional view taken sub-- stantially along the line 6-6 of FIG. 5;

FIGURE 7 is an elevational view of the alternate embodiment of the device with the wheel supporting bracket. and wheel rotated substantially 90 degrees about its horizontal axis; and,

`FIGURE 8 is an end elevational view of the device im the position illustrated yby FIG. 7.

Like characters of reference designate like parts in.v those igures of the drawings in which they occur.

In the drawings:

Referring more particularly to FIGS. 1 to 4, inclusive,- the reference numeral 10 indicates the device, as a whole including an inverted U-shaped member 12, rectangular in cross-section, having depending legs y14 and 16. The bight portion .'18, of the U-shaped member is provided with a bore or aperture 20, centrally disposed betweem its opposing sides 22 and 24, and adjacent the leg 14 for' receiving a spindle or shaft 26 which in turn carries an nular bearing means 28 in contact with the upper surface? of the bight portion 118. The shaft 26 is adapted to enter a vertical downwardly open bore or recess in .the lowerV surface 30 of an article to be supported in a mobile manner. A contact or friction plate 32 is interposed between the bearing -28 and the surface 30 thus permitting pivotal rotation of the yoke or U-shaped member 12 about the vertical axis of the shaft 26.

Obviously the bearing 28 acts to support the weight carried by the member 12 and permits greater ease of rotation of the member 12. It is to be understood that the shaft 26 and bearing 28 arrangement is by way of example only since it seems readily apparent that the member =12 may be connected Vto an article to be sup` ported in any number of more or less conventionalk Ways. In some instances, for example, it might be desirable to rigidly secure the member 12 to the lowermost surface of the supported article as by bolt and nut means, not shown, extending through the aperture 20.

A rectangular frame-like cross-member 34 extends horizontally and is freely received between the lower end y portions of the legs 14 and 16. The cross-member 34 is pivotally connected at each end 42 and 44, respectively, for rotation -about a horizontal axis formed by a pair of screws 36 threadedly secured within suitable threaded bores formed medially the transverse width of the respec- 3 disposed -pnd portions of Vcach 'of the set screws 36 are co-operatingly received by suitable aligned bores formed in the opposing ends 42 and 44 of the frame-like crossmember 34. As illustrated in FIG. l the opposing longitudinal side members 33 and 40 of the cross-member 34 are enlarged to extend upwardly of and below the planes defining the upper and lower surfaces of the crossmember ends 42 and 44 to increase the lateral outwardly disposed dat surface orface of the respective cross-member sides 38 and 40 for the purposes which will readily be apparent. The cross-member 34 is centrally divided longitudinally by a partition 46 rigidly connected with the cross-member ends 42 and 44. Washers or bushings 43 arepreferably interposed betweenv the respective ends of the cross-member around the screws 36.

An axle 50 extends transversely through the crossmember sides 38 and 40 and partition 46. The opposing ends 52 ofthe axle are countersunk to lie upwardly of the respective outer surface of the cross-member sides 38 and 40.

A pair of wheels 54 and 56 having aradius greater than the. spacing between they axle 50 and the respective upper or lower edge surfaces ofthe frame sides, as viewed in FIG. 1, are journaled by the axle 5'0 within the crossmember frame on opposing sides of the partition 46. It is important that the radius of the wheels be equal to the spacing; between the horizontal axis of the cross-member 34 and the outer surface of the respective sides 3S and 40. The length of the yoke legs 14 and 16 must be such that the cross-member 34 and wheels 54 and 56 may freely pivot about the horizontal axis of the cross-member without contact between the wheels and the inner surface of the bight portion 18. Spacing washers 57 carried by the. axle 5.0 are. placed on each side of the respective wheels. Thus, the caster will support an article of furniture, or the like, in a mobile manner. When the supported article is positioned where desired, the supported article is manually lifted to remove the weight from the caster andthe frame-like cross-member 34 is manually rotated about its horizontal axis substantially 90 to position either side 38 or 40 of the cross-member in contact with the supporting surface (FIGS. 3 and 4). Since -the area of. the cross-member sides 38 or 40 contacting the supporting surface is substantially greater than the point contacts of the respective wheels, when in supporting position, less damage will'be done to a supporting surface than would be done ifV only the wheels 54 and' 56v Furthermore, since the area were supporting they article. of contact is substantially greater, by reason of the area of the sides 38 and 40, the coeicient of sliding friction between the caster and the supporting surface is greatly increased thus providing additional stability to the supported article. distributes the weight of the-supported article over a larger area of the supporting surface and increases the stability ofthe caster against unauthorized tipping or rotation of the cross-member 34 about itsk horizontal axis when the caster is supporting an article in a mobile manner;

Referring now more particularly to FIGS. 5 to 8, inclusive, a modifiedv form of the caster is illustrated and is designated generally bythe numeral 10A. The caster 10A is identical in construction withk respect to the caster-f 1i? except for the construction of the frame-like crossmember 34A and wheel means V60. The frame-like crossmember 34A is rectangular in general configuration having opposing longitudinal sides 38A and 40A andV end members 42A and 44A. The end members 42A and 44A are similarly journaled between the yoke legs 14 and 16 by the screws 36 to provide a horizontal axis for thecross-member 34A. The respective sides 38A and 40A of the cross-member arev similarly enlarged to define a respective outer surface substantiallyl greater than that ofthe Lend members 42A and 44A but in this instance are each extended upwardly a greaterY distance in off-setV relationiwith respect to the horizontal axis/ofy the cross-member, asviewed in FIGSi 5 and 6.-

The use of the dual wheels 54 and 56 An axle 50A is similarly extended transversely through the frame and has its respective ends 52A similarly countersunk within the respectiveouter surfaces of the crossmember sides 38A and 49A. It will be noted from an examination of the drawings that the axle is extended through lthe cross-member sides 38A and 40A in upwardly olf-set relation with respect to the horizontal axis of the cross-member, as viewed in FIGS. 5 and 6. This lowers the center of gravity of the caster and the article supported.

The wheel 60, journalled by the axle 50A, within the cross-member frame is preferably a wheel having a relatively wide or broad tread, as shown, for the purpose of distributing the load over a large area of the supporting surface. However a relatively narrow wheel may be us'ed if desired. A washer S7A,carried by the axle 50A, is placed on each side of the wheel 60 within the `frame 34. Obviously the radius of the wheel 60 must be greater than the distance between the axle 50A and the lowermost edge surface of the frame sides 38A and 40A, as viewedl in FIGS. 5 and 6. It is similarly important that the distance between the horizontal axis of the Vcrossmember 34A and thehsupporting surface be equal t`o` the spacing between the horizontal axis of the cross-member 34A and the outer surfaces of its respective sides` 38A and 46A so that either side of the cross-member may be placed in contact with the floor in article supporting relation without altering the height of the caster. Simii larly the length of the yoke legs 14 and 16 must be such that the cross-member and wheel may freely pivot about the horizontal axis of the cross-member without contact between the wheel 60` and the inner surface of the bight portion 18. 'I'he operation and use of the caster l10A is identical. to that described hereinabove for the caster 10 with the exception that resilient means, such as a spring` 62, is employed to return the cross-member and wheel from a fixed article supporting position to a mobile position when. the weight is lifted olf of the caster. The spring 62 is connected at its respective ends to the upper inner surface of the yoke leg 14 and centrally 'to the upper edge surface of the frame end 42AV as at 64 and 66, respectively. Thus, as is shown by the dotted lines in FIG. 8, when the caster cross-member is positioned in fixed supporting position, the spring 62. is under tension and will return the cross-member to the position shown by FIGS. 5 and 6 when the weight of the supported article is removed from the caster.

Obviously the invention is susceptible to some change or alteration without defeating its practicability, and I thereforedo not wish to be confined to the preferred embodiment shown in the drawings and described herein further than I am limited by the scope of the appended claims.

I claim:

1. A combination caster and stationary support, conprising: a yoke having a bight portion and depending legs at the'oppo'site ends of the bight portion; means for' rotatably'securing said bight portion to an article to be sup'-` ported by the caster `for turning movement of the yoke in a horizontal plane; a rectangular frame having interconnected' side members and end members and being journaled at its opposite ends to said legs for turning-A movement about a horizontal axis; the outer Ifaces ofsaid side members being flat; and wheel meansr journaled by an intermediate portion of said vframe for rotation:

about an axis extending at right. angle to said horizontalv axis, said. wheel means and frame being of a sizeper-V mitting movement betwen said legs and under. the bight portion of said yoke between upright rolling, and horizontal,v stationary supporting, positions upon rotation oth said frame about said horizontal axis.

2. Structure as specified in claimY l, and means connected with said frame laterally of its horizontal axis for turning said wheel meanstol one ofV said positions.

3. Structure ask specified in claim 1 in which the dis- 5 tance between the horizontal axis of said frame and the outer face of its respective sides is equal to the spacing between the horizontal axis and a supporting surface.

4. Structure as specified in claim 3, and means con nected with said frame and extending laterally of its horizontal axis for rotating the axis of said wheel means to a horizontal position when the caster is lifted 01T of its supporting surface.

5. A combination caster and stationary support, comprising: a yoke having a bight portion defined by a at horizontal upper surface and depending legs at the op posite ends of the bight portion; spindle means extending vertically through said bight portion for connecting the bight portion of said yoke to an article to be supported for turning movement of the bight portion in a horizontal plane; a rectangular frame having interconnected side members and end members and being journaled horizontally between the depending legs of the yoke; the outer faces of said side members being at; an axle secured to 6 said frame perpendicular to the horizontal axis of the latter; and wheel means journaled on the axle, the diameter of said wheel' means being less than the spacing between the inner-surfaces of said legs and the distance between the horizontal axis of said cross-member and the undersurface of said bight portion.

References Cited in the tile of this patent UNITED STATES PATENTS 314,955 Mendenhall Mar. 31, 1885 331,461 Thompson Dec. 1, 1885 962,308 Burnett June 21, 1910 1,106,853 Smouse Aug. 11, 1914 2,683,277 Bernaerts July 13, 1954 FOREIGN PATENTS 14,066 Great Britain Dec. 18, 1913 26,753 Great Britain Dec. 19, 1898

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